Patent application number | Description | Published |
20090235976 | SOLAR CELL - A photovoltaic cell may include a semiconductor base, a semiconductor mesa extending from the semiconductor base, a dielectric and a conductive material. The semiconductor mesa includes a top surface and a side wall, and a first portion of the dielectric is disposed on the top surface, a second portion of the dielectric is disposed on the side wall, and a third portion of the dielectric is disposed on the base. The conductive material is disposed on the top surface of the mesa and on the dielectric, and the conductive material covers the first portion of the dielectric, the second portion of the dielectric, and a portion of the third portion. | 09-24-2009 |
20090320917 | SOLAR CELL PASSIVATION AND LEVELING - A device and a system to fabricate a device including a semiconductor mesa extending from a semiconductor base, the semiconductor mesa comprising an optically-active semiconductor area and a top surface, conductive material disposed on the top surface of the mesa, and substantially optically-transparent material disposed on the conductive material and on the top surface, wherein a surface of the substantially optically-transparent material above the conductive material and the top surface is substantially planar. In some aspects, the semiconductor mesa includes a side wall with one or more exposed p-n junctions, and material is disposed on the side wall to cover the one or more exposed p-n junctions. | 12-31-2009 |
20100059097 | BIFACIAL MULTIJUNCTION SOLAR CELL - A device and a method for its fabrication. The device may include a first at least partially transparent surface, a second at least partially transparent surface, a first photovoltaic cell between the first surface and the second surface and comprising a first photovoltaic material including a first p-n junction, a second photovoltaic cell between the first surface and the second surface and comprising a second photovoltaic material including a second p-n junction, and a third photovoltaic cell between the first surface and the second surface and comprising a third photovoltaic material including a third p-n junction a third p-n junction. A first bandgap associated with the first photovoltaic material is greater than a second bandgap associated with the second photovoltaic material, and a third bandgap associated with the third photovoltaic material is greater than the second bandgap associated with the second photovoltaic material. | 03-11-2010 |
20100059108 | OPTICAL SYSTEM FOR BIFACIAL SOLAR CELL - An apparatus and a method for its fabrication. The device may include a bifacial solar cell comprising a partially-transparent first surface and a partially-transparent second surface opposite the first surface, and an optical element comprising a first partially-transparent dielectric portion in contact with the first surface and the second surface. The optical element may be configured to receive light, to direct a first portion of the received light to the first surface, and to direct a second portion of the received light to the second surface. | 03-11-2010 |
20100263712 | THREE TERMINAL MONOLITHIC MULTIJUNCTION SOLAR CELL - A device and a method for its fabrication. The device may include a first surface, a second surface to receive light into the device, a first photovoltaic cell between the first surface and the second surface, and a second photovoltaic cell between the first surface and the second surface. The first photovoltaic cell includes a first region of a first photovoltaic material exhibiting an excess of a first type of charge carrier and a second region of the first photovoltaic material exhibiting an excess of a second type of charge carrier, and the second photovoltaic cell includes a first region of a second photovoltaic material exhibiting an excess of the first type of charge carrier and a second region of the second photovoltaic material exhibiting an excess of the second type of charge carrier. | 10-21-2010 |
Patent application number | Description | Published |
20090159122 | Leadframe Receiver Package - The invention is a leadframe receiver package comprising a first conductive element, a solar cell electrically coupled to the first conductive element and comprising an active area, and a mold compound disposed on the leadframe and the solar cell. The mold compound defines a first aperture wall over at least a portion of the active area and a second aperture wall over at least a portion of the first conductive element. The mold compound includes a reflective surface to improve heat resistance around an aperture wall receiving solar radiation. | 06-25-2009 |
20090277503 | Solar Cell with Current Blocking Layer - A solar cell includes an active layer, a blocking layer and a contact layer. The blocking layer is disposed between a portion of the top surface of the active layer and the bottom surface of the contact layer. The blocking layer serves to reduce current flow between the contact layer and the portion of the active layer covered by the blocking layer. Current flow to the contact layer may occur via gridlines electrically connecting the active layer to the contact layer. | 11-12-2009 |
20100263713 | Four Terminal Monolithic Multijunction Solar Cell - A monolithic multijunction photovoltaic device is disclosed which comprises two or more photovoltaic cells between two surfaces. Each of the photovoltaic cell materials include a first region exhibiting an excess of a first charge carrier and a second region exhibiting an excess of a second charge carrier. Contacts are connected to the regions of the photovoltaic cells in configurations that allow excess current to be extracted as useful energy. In one embodiment, a first contact is electrically connected to a second region of a first material, a second contact is electrically connected to a first region of the first material, a third contact is electrically connected to a first region of a second material, and a fourth contact is electrically connected to a third material. In other embodiments, the contacts may be positioned on the surfaces of the monolithic device to minimize shadowing. | 10-21-2010 |